Radioisotope thermoelectric generators do not rely on chemical reactions like the batteries in your phone. Instead, they rely on the radioactive decay of elements to produce heat and eventually ...

Feb. 27, 2025 — Perovskite solar cells could last ten times longer thanks to new research, which suggests alumina nanoparticles significantly enhance the lifespan and stability of these high ...

A total lunar eclipse best seen from North America on March 13-14, 2025, may reveal the northern lights, thanks to solar ...

"By addressing these common challenges we see with perovskite solar technology, our research blows the doors wide open for ...

Qi Zhang, a doctoral student at the Swedish Institute of Space Physics and Umeå University, explores in her doctoral thesis ...

Neutrinos generated through solar fusion reactions travel effortlessly through the sun's dense core. Each specific fusion ...

Emulating the concept of natural photosynthesis has long been a focus of chemists in an effort to harness solar light as an energy source using water as an electron donor and a source material.

Solar flares, seen as bright areas on the Sun, are giant explosions that send energy, light, and high-speed particles into space. These particles can impact space weather and potentially disrupt ...

"We develop new materials that can be used to store energy. In this case, to create electrodes we prepared carbon from the wood particles of the insignis pines that are all around us and are used in ...

Perovskite solar cells could last ten times longer thanks to new research, which suggests alumina nanoparticles significantly enhance the lifespan and stability of these high-efficiency energy devices ...

Perovskite solar cells could last 10 times longer thanks to new research led by the University of Surrey, which suggests alumina (Al 2 O 3) nanoparticles significantly enhance the lifespan and ...

A deep-sea neutrino telescope has detected the most energetic neutrino ever recorded. The particle, known as a "ghost particle," was about 30 times more active than the previous record-holder.